Numerical modeling of wet steam infused fluid mixture for potential fire suppression applications

Hengrui Liu; Ivan Miguel De Cachinho Cordeiro; Anthony Chun Yin Yuen; Cheng Wang; Ao Li; Guan Heng Yeoh

doi:10.1007/s42757-021-0107-5

Numerical modeling of wet steam infused fluid mixture for potential fire suppression applications

Hengrui Liu, Ivan Miguel De Cachinho Cordeiro, Anthony Chun Yin Yuen, Cheng Wang, Ao Li, Guan Heng Yeoh

Research output: Journal article publication › Journal article › Academic research › peer-review

3 Citations (Scopus)

Abstract

An advanced numerical model for modeling spontaneous condensation phenomena of water vapor was presented to investigate the flow behaviors in a converging-diverging nozzle for potential application in fire suppression using steam ejectors. The numerical model is validated against existing experimental data, which shows a good agreement. The proposed model was then compared against the ideal gas model in terms of various flow behaviors, including static pressure and Mach number in a newly designed nozzle. The condensing behaviors were accurately captured by the proposed model, while the idea gas model failed to do so. The condensation phenomena, including nucleation rate, droplet number, etc., in the nozzle, were discussed in detail. The accurate prediction results proved the possibility and demonstrated potential of applying the proposed model to broader fields of applications, especially into a steam ejector.

Original language	English
Pages (from-to)	142-148
Number of pages	7
Journal	Experimental and Computational Multiphase Flow
Volume	5
Issue number	2
DOIs	https://doi.org/10.1007/s42757-021-0107-5
Publication status	Published - Jun 2023
Externally published	Yes

Keywords

CFD
fire suppression
Laval nozzle
nonequilibrium condensation

ASJC Scopus subject areas

Mechanical Engineering
Nuclear and High Energy Physics
Fluid Flow and Transfer Processes
Nuclear Energy and Engineering

More information

10.1007/s42757-021-0107-5

Cite this

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title = "Numerical modeling of wet steam infused fluid mixture for potential fire suppression applications",

abstract = "An advanced numerical model for modeling spontaneous condensation phenomena of water vapor was presented to investigate the flow behaviors in a converging-diverging nozzle for potential application in fire suppression using steam ejectors. The numerical model is validated against existing experimental data, which shows a good agreement. The proposed model was then compared against the ideal gas model in terms of various flow behaviors, including static pressure and Mach number in a newly designed nozzle. The condensing behaviors were accurately captured by the proposed model, while the idea gas model failed to do so. The condensation phenomena, including nucleation rate, droplet number, etc., in the nozzle, were discussed in detail. The accurate prediction results proved the possibility and demonstrated potential of applying the proposed model to broader fields of applications, especially into a steam ejector.",

keywords = "CFD, fire suppression, Laval nozzle, nonequilibrium condensation",

author = "Hengrui Liu and {De Cachinho Cordeiro}, {Ivan Miguel} and Yuen, {Anthony Chun Yin} and Cheng Wang and Ao Li and Yeoh, {Guan Heng}",

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doi = "10.1007/s42757-021-0107-5",

language = "English",

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AU - Liu, Hengrui

AU - De Cachinho Cordeiro, Ivan Miguel

AU - Yuen, Anthony Chun Yin

AU - Wang, Cheng

AU - Li, Ao

AU - Yeoh, Guan Heng

N1 - Funding Information: This research was sponsored by the Australian Research Council (ARC Industrial Transformation Training Centre IC170100032). Publisher Copyright: © 2021, Tsinghua University Press.

PY - 2023/6

Y1 - 2023/6

N2 - An advanced numerical model for modeling spontaneous condensation phenomena of water vapor was presented to investigate the flow behaviors in a converging-diverging nozzle for potential application in fire suppression using steam ejectors. The numerical model is validated against existing experimental data, which shows a good agreement. The proposed model was then compared against the ideal gas model in terms of various flow behaviors, including static pressure and Mach number in a newly designed nozzle. The condensing behaviors were accurately captured by the proposed model, while the idea gas model failed to do so. The condensation phenomena, including nucleation rate, droplet number, etc., in the nozzle, were discussed in detail. The accurate prediction results proved the possibility and demonstrated potential of applying the proposed model to broader fields of applications, especially into a steam ejector.

AB - An advanced numerical model for modeling spontaneous condensation phenomena of water vapor was presented to investigate the flow behaviors in a converging-diverging nozzle for potential application in fire suppression using steam ejectors. The numerical model is validated against existing experimental data, which shows a good agreement. The proposed model was then compared against the ideal gas model in terms of various flow behaviors, including static pressure and Mach number in a newly designed nozzle. The condensing behaviors were accurately captured by the proposed model, while the idea gas model failed to do so. The condensation phenomena, including nucleation rate, droplet number, etc., in the nozzle, were discussed in detail. The accurate prediction results proved the possibility and demonstrated potential of applying the proposed model to broader fields of applications, especially into a steam ejector.

KW - CFD

KW - fire suppression

KW - Laval nozzle

KW - nonequilibrium condensation

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JO - Experimental and Computational Multiphase Flow

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ER -

Numerical modeling of wet steam infused fluid mixture for potential fire suppression applications

Abstract

Keywords

ASJC Scopus subject areas

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